A Cooperative Advanced Driver Assistance System to mitigate vehicular traffic shock waves

Author

Forster, Michael ; Frank, Raphael ; Gerla, Mario ; Engel, Thomas

Author_Institution

Interdiscipl. Centre for Security, Reliability & Trust, Univ. of Luxembourg, Luxembourg, Luxembourg

fYear

2014

fDate

April 27 2014-May 2 2014

Firstpage

1968

Lastpage

1976

Abstract

We address the problem of shock wave formation in uncoordinated highway traffic. First, we identify the combination of heavy traffic and small traffic perturbations or unexpected driver actions as the main causes of highway traffic jams. Then we introduce a novel distributed communication protocol that enables us to eliminate upstream shock wave formation even with low system penetration rates. Based on traffic information ahead, we propose a Cooperative Advanced Driver Assistance System (CADAS) that recommends non-intuitive velocity reductions in order to redistribute traffic more uniformly thereby eliminating traffic peaks. Simulation results show that CADAS significantly increases the average velocity and therewith reduces the overall travel time and avoids unnecessary slowdowns.

Keywords

cooperative systems; driver information systems; perturbation techniques; protocols; road traffic; road vehicles; shock waves; CADAS; cooperative advanced driver assistance system; distributed communication protocol; heavy traffic perturbation; highway traffic jam; nonintuitive velocity reduction; small traffic perturbation; system penetration rate; traffic information; traffic peak; uncoordinated highway traffic; upstream shock wave formation; vehicular traffic shock waves; Equations; Mathematical model; Protocols; Roads; Shock waves; Vehicles; Congested Flow; Shock Waves; Traffic Modeling; Vehicular Networks;

fLanguage

English

Publisher

ieee

Conference_Titel

INFOCOM, 2014 Proceedings IEEE

Conference_Location

Toronto, ON

Type

conf

DOI

10.1109/INFOCOM.2014.6848137

Filename

6848137